Rocket projector



Oct. 15, 1957 c. c. LAURITSEN 2,309,559

ROCKET PROJECTOR Original Filed April 2. 1945 V 4 Sheets-Sheet 1 IIVVENTOR CHARLES 0. LAUR/TSEIV ATTORNEYS c. c. LAURITSEN ROCKET PROJECTOR Oct. 15, 1957 Original Filed April 2, 1943 4 Sheets-Sheet 2 ATTORNEYS 4 Sheets-$heet 5 C. C. LAURITSEN Original Filed April 2, 1943 m m O m G NV 55 O ok 3 n N r] gm 0 h as. m 13m mm Own R u mm I mm O \V B QRW/ JNW L WW n a J 0 UI R\ 2? 111 Q R O OR 5 W mm \B vh a ww F- I, b mm ebb y .L 4 Q R an S R m mm O, o am An H mm, M IIF m y W nm mm mm \n mw 7 mm mw ww n r IL in mm L E mw v m w mmwgmfim m mm km 06L 1 c. c. LAURITSEN 2,809,559

ROCKET PROJECTOR Original Filed April 2, 1943 4 Sheets-Sheet 4 FIG. 6

Ll l l l bl l ATTORNH'J' ROCKET PROJECTOR Charles C. Lauritsen, Pasadena, Calif., assignor to the United States of America as represented by the Secretary of the Navy Claims; (31. s9-1.7

This invention relates to projectors for rocket-propelled devices and more particularly to a novel projector having means for energizing an electrical igniter in the rocket and which may be made in a form suitable for projecting salvos of rocket-propelled devices of different sizes. This application is a division of copending application Serial No. 481,650 filed April 2, 1943, now U. S. Pat. No. 2,703,508.

While the new projector may be used with various types of rocket-propelled devices, it may be employed to particular advantage for projecting rocket-driven bombs from mobile craft, such as boats and land vehicles. Accordingly, for illustrative purposes, the invention will be described and illustrated in a form adapted for use on the deckof a patrol boat, or the like, for projecting anti-submarine bombs, although itwill be understood that the invention may take other forms as well.

it has been proposed to attack submerged submarines from surface craft by employing a rocket motor for propelling' a bomb through an air trajectory to a point in the water above the estimated position of the submarine, a rocket motor suitable for this purpose being disclosed in a copending application of C. C. Lauritsen, Ser. No. 481,645, filed April 2, 1943, now Patent 2,469,350. One of the principal advantages of projecting bombs in this'manner is the absence of recoil on the attackingcraft, whereby the rocket projectors may be mounted on small craft which are not sufficiently rugged to withstand the recoil of guns of comparable fire power. is desirable to fire them in salvos to obtain a predetermined pattern calculated to cover a certain area in which the submarine is located.

One object of the present invention, therefore, resides provision of a rocket projector having a support for arelatively large rocket and bomb assembly, and an adaptor which may be mounted on the support for use in projecting a smaller rocket and bomb assembly.

These and other objects of the invention may be better understood by reference to the accompanying drawings illustrating one form of the new projector. In the' drawings: a 1 Fig. 1 is a-side view of part of the projector, showing the guide unit for supporting the rockets;

Fig. 2 is a rear view of the device illustrated in Fig. 1,

showing an adaptor on .t heguide unit for receiving a smallerrocket; V v a r U W In the use of such bombs, it

Unifiid States Patent Figs. 3 and 4 are sectional views on the lines 33 and 44, respectively, in Fig. 2;

Figs. 5 and 6 are schematic views showing the ignition system for the rockets, and

Fig. 7 is a diagrammatic view of a safety plug for use in the ignition system.

Referring to the drawings, the projector there shown comprises a base frame 10 including a pair of longitudinal members 11, which may be made of angular iron, forming the sides of the frame. The base frame is adapted to be bolted or otherwise secured to an operating platform, such as the deck of a boat. A cross-piece 12 extends between the sides of the frame near the rear end thereof and is mounted for rotation in the frame on pivots 13. A plurality of inverted trough-shaped members 14 and 15 extend longitudinally of the frame and are connected at their rear ends to the cross-piece 12. The troughof the frame, on which they are hinged as a unit. Any desired number of guides 18 may be provided, but for illustrative purposes I have shown four guides. Preferably, the members 14 and 15 are arranged so that the guides diverge slightly from the cross piece 12. It will be understood that the guides 18 may be formed by means other than the trough-shaped members 14 and 15, as, for example, by a series of longitudinal bars or rods connected to the cross-piece 12.

The guide members 14-15 are normally locked in an operating position in which they are inclined with respect to the frame 10 at an angle of substantially 45 degrees. For this purpose, I provide a crotch 20 comprising a pair of longitudinal beams 21 forming the sides of the crotch,

the beams being braced by diagonal members 22. One' end of the crotch 20 is connected to the front end of normally engages a flange 17a on the cross bar 17 so as to hold the guide members in their operating positions. The crotch may be secured to the flange 17a by a suitable lock having a handle 24. When the projector is notin use, the handle 24 is moved to release the crotch from flange 17a, and the guide members 14-15 are raised slightly to allow the crotch to swing downwardly on its pivots 23 and against the frame 10. The guide members 14 may then be swung downwardly as a unit on pivots 13 so that the entire assembly lies flat on the operating platform and occupiesa relatively small space.

A contact plate 26 is mounted on the guide assembly at the rear end of each guide 18, each plate being spaced slightly above the bottom of the guide and centered therein. The front end of each plate is tapered and carries on its lower face a knife blade contact 27 extending generally parallel to the bottom of the guide. The rear.

end portions of the plates 26 diverge upwardly from the bottoms of the guides, as shown in Fig. 1, for a purpose to be described presently. Mounted in front of the contacts 27 are contacts 28 extending through the bottoms'of the guides in the spaces between adjacent flanges 14a15a, the contacts28 being insulated from the guide assembly by suitable insulating means (not shown).

The projector is adapted for use with a rocket propelled assembly including a rocket motor similar to that disclosed in the above identified application of C. C. Lauritsen, Serial No. 481,645, now Patent 2,469,350.

, More particularly, the rocket assembly includes an antisubmarine bomb 30 connected at its rear end to the rocket motor 31. The rocket motor contains a propellant charge (not shown) which is ignitable electrically through a circuit including a pair of tail rings 32 and 33 on the motor, the tail ring 33 being insulated from the motor body. In operation, a rocket assembly 38-31 is placed in each of the guides 18, the sides of which engage the bomb 30 so as to prevent lateral movement of the assembly. Each assembly is moved rearwardly in the guide until the bottom of tail ring 32 slides under the front end of plate 26 against a stop 26a, whereby the contacts 27 and 28 firmly engage the inner surface of ring 32 and the outer surface of ring 33, respectively. Thus, when the contacts 27 and 28 are connected across a current source, the propellant charge in rocket motor 31 is ignited electrically through a circuit traceable from one side of the current source through plate 26, contact 27, ring 32 the igniter (not shown), ring 33, and contact 28 back to the other side of the current source. The rocket motor then propels the assembly 3031 along the guide 18 so that the rings 32 and 33 slide out of engagement with contacts 27 and 23. The guide 18 serves to direct the flight of the rocket assembly while it is being accelerated by motor 31, whereby the trajectory may be accurately controlled. By arranging the guides 13 in diverging relation, a salvo of rocket assemblies fired from the projector is provided with the desired dispersion. The inclined rear end portions of the contact plates 26 serve to deflect the blasts from the rockets and prevent damage to the operating platform.

For some purposes, it may be desired to employ two projectors, one on each side of the attacking craft, as shown schematically at 35 and 36 in Fig. 5, the guides of each projector, for convenience, being numbered consecutively from left to right. In order to provide a close operating control over the rocket motors in the two sets of guides 35 and 36, the projector includes an ignition system illustrated diagramatically in Figs. and 6. As there shown, the insulated contacts 28 of the odd numbered guides in projector 35 are connected by wire 37 to a contact 38 in a safety box 39 having a safety plug 40 which, when inserted in the box, connects contact 38 through a conductor 38a4la to a contact 41 in the box. The contact 41 is connected through a wire 37a, a releasable connector 4242a, wire 3712 a normally open double-pole switch 43, wire 44, a normally open firing switch 45, and a normally open double pole switch 46 to the positive side of a battery 47. The negative side of the battery is connected through wire 48 to a relay winding 49 forming part of a time delay device 50, the winding being connected through a resistor 51 to the wire 44. A branch conducting path 52 leads from wire 48 through connector 4242a and wire 52a to a contact 53 in safety box 39. The plug 40 is adapted to connect contact 53 through conductors 53a54a-55a56a to contacts 54, 55, and 56 in the safety box 39. The contact 54 is connected through wires 57 and 57a to the grounded contacts 26 on projector 35.

The insulated contacts28 in the even numbered guides of projector 35 are connected through wire 60 to a contact 61 in the safety box 39. The plug 40 is adapted to connect contact 61 through a conductor 61a62a to a contact 62 which is connected through wire 60a, connector 4242a, wire 6%, the other pole of switch 43, and a wire 63 to one side of a normally open switch 64 adapted to be closed by energizing of the relay 49. The other side of switch 64 is connected through wire 44 and switches 45 and 46 to the positive side of battery 47.

The insulated contacts 28- in the odd numbered guides of the other projector 36 are connected through wire 66 to a contact 67 in the safety box, and the contact 67 may be connected through a conductor 67a-68a in the plug 40 to a contact 68 in the box. The contact 68 is connected through wire 66a, connector 4242a, wire 66b, a normally open double-pole switch 69, wire 44 and switches and 46 to the positive side of the battery. Similarly, the insulated contacts 28 in the even numbered guides of projector 36 are connected by wire 70 to a contact '71 in the safety box, which may be connected through a conductor 71a72a in the plug to a contact 72 in the box. The contact 72 is connected through wire 7%, connector 4242a, wire 7%, the other pole of switch 69, and switches 64, 45 and 46 to the positive side of the battery. The grounded contacts 26 in projector 36 are connected through wires 57b, 57, 52a and 52 to the negative side of the battery.

A battery 75 is connected at its negative side to the grounded wire 52 and through a wire 76, the other pole of switch 46, an indicator lamp 77, and a wire 78 to the positive side of battery 75. A second indicator light 80 is connected to the positive side of battery 75 and through a conductor 81, connector 4242a and wire 81a to the contact 56, which is adapted to be connected through plug 40 to a grounded wire 82 and to contact The operation of the ignition system is as follows: To prepare the projectors for operation, the safety plug 40 is inserted in box 39, the lamp 80 being thus energized from battery 75 through wires 52 and 52a, contacts 53 and 56, and wires 81a and 81 to indicate that the system is ready to operate. When it is desired to fire the rockets in the port projector 35, the switches 43 and 46 are closed, whereby an indicator circuit is established through lamp 77 to show that the firing battery is in circuit. The firing switch 45 is then closed so that the insulated contacts 28 in the odd numbered guides of projector 35 are connected through wires 37, 37a and 37b, switches 43, 45 and 46, battery 47-, and conductors 52, 52a, 57 and 57a to the grounded contacts 26. At the same time, a branch circuit is established across battery 47 through resistor 51, relay 49 and wire 48. As a' result, the rockets in the odd numbered guides of projector 35 are fired, and when switch 64-is closed by relay 49, the rockets in the even numbered-guides of projector 35 are energized and fired through the circuit including wires 60, 60a and 60b, switches 43, 64, 45 and 46, battery 47 and the common return path 52. By the use of the time delay device 50, simultaneous firing of adjacent rockets in the projector is prevented. This is a desirable feature because if adjacent rockets were fired simultaneously, the blast from one of the rockets might interfere with the flight of the other. The time delay afforded by relay 49 is preferably small so that the rockets are fired in a salvo with suflicient spacing between adjacent rockets to provide uninterrupted flight.

Firing of the rockets in the other projector 36 may be effected by closing switches 69 and 46 and actuating the firing switch 45. The operation of the energizing circuits for the projector 36 is similar to the operation of the circuits described in connection with projector 35 and need not be described in detail. If desired, a single salvo may be fired from the two projectors 35 and 36 by closmg switches 43 and 69 simultaneously. When a single salvo 1S fired, the time delay device 50 causes energizing of the rockets in the even numbered guides of both proectors shortly after the rockets in the odd numbered guides are energized.

In order to train personnel in the use of the new proector, it may be desired to employ a smaller rocket and bomb assembly, that is, an assembly employing a sub caliber bomb and a motor of smaller capacity. For this purpose, I provide an adaptor guide 84 which may be mounted in each of the main guides 18. The adaptor guide, as shown, is generally trough-shaped and is considerably narrower and shorter than the main guides. A bracket 85 is connected to the bottom of each adaptor 84, intermediate its ends and has legs which rest upon the bottom of the guide 18 to support the adaptor. In mounting the adaptor, it is placed in the guide 18 and moved rearwardly until the bottom of the adaptor slides under contact 27 against the stop 26a. Preferably, the adaptor is provided near its front end with a finger 87 which fits in the space between adjacent flanges 14a15a and hooks over the cross bar 17. Thus, the adaptor is held down on guide 18 by contact plate 26 and the finger 87.

Near its rear end, the bottom of each adaptor 84 is provided with an elongated opening 84b which receives a contact 88 mounted on an insulating strip 89 in the adaptor. An insulated terminal 90 in the adaptor is electrically connected to contact 88 and is disposed in a housing 91 on the adaptor. The terminal 90 is connected through a wire 92 to one side of an electric socket 93 in the housing, the other side of the socket being connected through a wire 94 to a terminal 95 grounded to the adaptor and the contact 27. Thus, when the adaptor is mounted in position on guide 18, the insulated contact 88 engages the insulated contact 28 in the guide, whereby socket 93 is connected across the contacts 27 and 28.

In operation, the sub-caliber rocket assembly 96 is placed in the adaptor guide 84 near the rear end thereof. The assembly 96 is generally similar .to the assembly 3031, except that it has a single tail ring 97 and the propellant charge is ignited electrically through wiring 99 connected to a plug 100 which may be inserted in the socket 93. When the adaptors are assembled on the guides 18, the sub-caliber rocket assemblies 96 may be fired electrically through the ignition system, which is operated in the manner previously described. The adaptors 84 may be easily removed from the guides 18 and the projector is then ready for use with the larger rocket assemblies 30-31.

I claim:

1. A projector for electrically ignitible rockets, which comprises a channel-shaped guide for supporting a rocket, said guide having a longitudinally extending slot and a transverse bar secured to the guide and extending across said slot; electrical contact means on the guide engageable with a rocket thereon for energizing the rocket, a channel-shaped adaptor guide mounted in spaced nested relationship within the first guide for supporting a smaller rocket, releasable means engageable with said bar for connecting the adaptor guide to said first guide and conducting means on the adaptor guide engaging said contact means for energizing the smaller rocket.

2. A base frame supported projector for rocket-propelled devices comprising a pair of longitudinal base frame members adapted to be rigidly secured at their front and rear ends to an operating platform, a corsspiece pivotally connected at each end thereof to said base frame members adjacent the rear end thereof, a plurality of inverted trough-shaped members disposed in spaced side-by-side relation and extending longitudinally of the base frame, said trough-shaped members being connected at the rear end thereof to said crosspiece and thereby hinged as a unit to the base frame members, outwardly extending flanges located along the side edges of said trough-shaped members, transverse bars secured to the lower faces of said trough-shaped members and intermediate the ends thereof, the upper faces of said trough-shaped members defining therebetween a plurality of open-sided guide supmounted on the base frame members adjacent the front end thereof for locking the guide supports in an inclined firing position and movable to release the guide supports to assume a collapsed position substantially parallel with said base frame members, said crotch means including a pair of beams disposed longitudinally relative to said guide supports, said crotch means further including diagonal members rigidly interconnecting said longitudinal beams, lock means for releasably connecting said crotch means to said guide supports when the latter are elevated to the firing position, and a trough-shaped subcaliber adaptor guide detachably mounted on at least one of said guide supports and adjacent the rear end thereof.

' ports for rocket-propelled devices, crotch means pivotally ally connected at each end thereof to said base frame members adjacent the rear end thereof, a plurality of inverted trough-shaped members disposed in spaced sideby-side relation and extending longitudinally of the base frame, said trough-shaped members being connected at the rear end thereof to said crosspiece and thereby hinged as a unit to the base frame members, outwardly extending flanges located along the side edges of said trough-shaped members, transverse bars secured to the lower faces of said trough-shaped members and intermediate the ends thereof, the upper faces of said trough-shaped members defining therebetween a plurality of open-sided guide supports for rocket-propelled devices, crotch means pivotally mounted on the base frame members adjacent the front end thereof for locking the guide supports in an inclined firing position and movable to release the guide supports from the firing position and thereby permit the guide supports to assume a collapsed position substantially parallel with said base frame members, said crotch means including a pair of beams disposed longitudinally relative to said guide supports, said crotch means further including diagonal members rigidly interconnecting said longitudinal beams, lock means for releasably connecting said crotch means to said guide supports when the latter are elevated to the firing position, and a trough-shaped subcaliber adaptor guide detachably mounted in at least one of said guide supports, a bracket secured to the undersurface of said adaptor guide intermediate the ends of the latter,

legs on said bracket in engagement with the guide support 7 over at least one of said transverse bars to thereby secure the subcaliber adaptor guide to the guide support individual thereto.

4-. A trough-shaped rocket support having a longitudinal medial slot formed in the lowermost portion thereof, a transverse bar secured to the underside of the lowermost portion of the support substantially intermediate its length, an inwardly extending projection mounted on one end of said support, a trough-shaped rocket guide adapted to be releasably mounted within said support such that its intermediate portion is nested in proximity to the lowermost portion of the support, the undersurface of the intermediate portion of the guide having a downwardly directed hook member whereby upon longitudinal movement of the guide relative to the support said hook will engage said transverse bar through the slot and the end of the guide will engage said projection.

5. A projector for rockets comprising inverted troughshaped members disposed in spaced side-by-side relationship, outwardly extending flanges located along the side edges of said trough-shaped member, said flanges and the upper faces of said trough-shaped members defining an open-sided rocket guide support, a trough-shaped rocket guide mounted within said open-sided guide support in longitudinal spaced nested relationship therewith, releasable means for connecting and disconnecting the rocket guide to the guide support upon relative longitudinal movement therebetween, said releasable means comprising a cross bar for connecting said spaced inverted trough-shaped members, a latch member projecting from the under side of the rocket guide for cooperation with said cross member and a receiving flange on one end of the guide support for receiving and securing the adjacent end of the rocket guide.

(Other references on following page) 7 UNITED STATES PATENTS Tasker Apr. 19, 1904 Unge Mar. 21, 1905 Wauters July 27, 1943 Nelson Feb. 29, 1944 5 Lauritsen Nov. 17, 1953 FOREIGN PATENTS Great Britain of 1894 Great Britain of 1899 Great Britain Mar. 24, 1927 Great Britain Feb. 25, 1932 Great Britain Aug. 21, 1940 

